Autoinhibition and regulation by phosphoinositides of ATP8B1, a human lipid flippase associated with intrahepatic cholestatic disorders
2021
P-type ATPases from the P4 subfamily (P4-ATPases) are primary active transporters that maintain lipid asymmetry in eukaryotic cell membranes by flipping lipids from the exoplasmic to the cytosolic leaflet. Mutations in several human P4-ATPase genes are associated with severe diseases. For instance, mutations in the ATP8B1 gene result in progressive familial intrahepatic cholestasis, a rare inherited disorder that usually progresses toward liver failure. ATP8B1 forms a binary complex with CDC50A and displays a broad specificity to glycerophospholipids, but regulatory mechanisms are unknown. Here, we report the cryo-EM structure of the human lipid flippase ATP8B1-CDC50A at 3.1 angstrom resolution. The lipid flippase complex is autoinhibited by the N- and C-termini of ATP8B1, which in concert form extensive interactions with the catalytic sites and flexible domain interfaces of ATP8B1. Consistently, ATP hydrolysis by the ATP8B1-CDC50A complex requires truncation of its C-terminus as well as the presence of phosphoinositides, with a marked preference for phosphatidylinositol-3,4,5-phosphate (PI(3,4,5)P3), and removal of both N- and C-termini results in full activation. Restored inhibition of ATP8B1 truncation constructs with a synthetic peptide mimicking the C-terminus further suggests molecular communication between N- and C-termini in the autoinhibition process and demonstrates that the regulatory mechanism can be interfered with by exogenous compounds. A conserved (G/A)(Y/F)AFS motif in the C-termini of several P4-ATPase subfamilies suggests that this mechanism is employed widely across P4-ATPase lipid flippases, including both plasma membrane and endomembrane P4-ATPases.
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